JPH09506464A - Electrical connector with self-holding board lock - Google Patents

Abstract

(57) [Summary] The electric connector (10) has a self-holding type board lock (20), and the electric connector (10) is connected and fixed to the printed circuit board (140) on the board lock (20). Also, a barb member that holds the board lock (20) within the board lock retention window (160) of the electrical connector (10) prior to connecting the electrical connector (10) to the printed circuit board (140). (110) is provided. The board lock (20) is fitted with a part (60) of the board lock (20) at both opposite corners of the hexagon opening (50), so that the hexagon opening ( It is preferable to press into 50). The other end of the board lock (20) has spring means (72, 74) with barb members (110) provided on the board lock, which are the board lock retention windows () of the electrical connector (10). 160) and is biased outwardly to retain the board lock (20) within the window (160) during transport of the electrical connector (10).

Description

Description: BACKGROUND OF THE INVENTION Electrical Connector with Self-Holding Board Lock BACKGROUND OF THE INVENTION This invention relates to electrical connectors, and more particularly to electrically connecting an electrical connector with a printed circuit board ("PCB"). To an electrical connector with a self-holding board lock for. Description of the Prior Art Numerous prior arts are known for connecting and securing electrical connectors to printed circuit boards. Corresponding through holes are provided in the electrical connector and the printed circuit board, for example, to accommodate screws and nuts that are tightened to secure the connector to the printed circuit board. Although such a technique works very well, it is relatively tedious and requires substantial assembly time. As a result, board locks, clips, etc. have been developed that do not require any equipment to connect the electrical connector to the printed circuit board. Board locks, clips and the like are climbing in a wide variety of shapes and sizes, and they generally pass through windows provided in the electrical connector and the printed circuit board for connecting and fixing the electrical connector to the printed circuit board. To do. The downward-facing support mechanism typically comprises a "Christmas tree" type bar of board locks or clips that engage the printed circuit board to provide an interference fit with the board lock receiving window of the printed circuit board. Boardlocks or clips, etc. are typically boardlocks and electrical, as described, for example, in Douty et al., US Pat.No. 4,907,987, Hypes, US Pat. It is retained within the board lock receiving window of the electrical connector housing prior to being connected to the printed circuit board via the interference fit between the connector and the board lock receiving window. Other board locks, clips, etc. may be shipped separately from the electrical connector or may extend into the through slot in the electrical connector for placing and tightening the electrical connector in a corresponding hole in the printed circuit board. It is clamped in a narrow through slot in an electrical connector that uses protruding members, such as barbs. Such fastening members are described, for example, in Ishikawa, US Pat. No. 5,184,963 and Japanese patent 61-28905. Note that other electrical connectors use clips or lock pins for mounting the electrical connector on the printed circuit board without using the barb member described above. Such clips or locking pins are described, for example, in US Pat. No. 4,645,287 to Olsson and US Pat. No. 4,681,389 to Nakazawa et al. Unfortunately, board locks, clips and locking pins of the type described in each of the above patents are not always possible to be shipped with an electrical connector without falling off, or else an electrical connector. It is transported separately from. These components are so small that it is generally not desirable to ship them separately. Thus, even boardlocks that form an interference fit may retract from the boardlock retention window of the electrical connector during shipping and fall out of the electrical connector. Accordingly, there is a need for an improved board lock that is self-held within the board lock retention window of the electrical connector and does not fall out of the electrical connector during shipping. It is also desirable that the boardlock can also be used with conventional screw and hex nut windows, does not require any other tools to assemble the electrical connector, and thus gives the purchaser a number of assembly options. . The present invention is designed to meet these needs. SUMMARY OF THE INVENTION The present invention relates to an electrical connector having a board lock that is self-held within a board lock retention window of the electrical connector during shipping. The board lock has a tab at one end that prevents the board lock from entering the through hole in the board lock retention window of the electrical connector, and the other end at which the board lock is electrically secured during shipping. It is designed with barb members biased outwardly for retention within the board lock retention window of the connector. The board lock is held in the retention window of the electrical connector by the tab at one end and by the barb of the biasing means at the other end so that the board lock fits loosely within the board lock retention window. Thus, there is no need to provide an interference fit with the boardlock to hold it in the boardlock retention window. The size of the boardlock retention window is not critical, as there is no need for an interference fit. Therefore, the board lock can be used in conventional screw and hex nut recesses in electrical connectors without the use of additional tools. The electrical connector of this invention preferably aligns the board lock of the electrical connector with the board lock receiving window of the printed circuit board after shipping, and then when the board lock is completely within the board lock retaining window of the electrical connector. , Can be connected to the printed circuit board at any time by pressing on the top of a board lock that projects slightly above the top surface of the electrical connector. Of course, the top of the board lock may be flush with the top surface of the electrical connector if desired. The barb of the boardlock biasing means forms an interference fit with the wall of the boardlock retention window of the printed circuit board so that the electrical connector is properly retained in connection with the printed circuit board. Good. BRIEF DESCRIPTION OF THE DRAWINGS The present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, which form a part of this application. In these figures, FIG. 1 is a perspective view of an electrical connector having a conventional boardlock retention window that houses the self-retaining boardlock of the present invention. FIG. 2 is a front view of the self-holding board lock of the present invention. FIG. 3 is a side view of the self-holding board lock of FIG. FIG. 4 is a cross-sectional view showing a part of an end face of a board lock connected and fixed in a window of an electric connector mounted on a printed circuit board. FIG. 5 is a self-supporting board of the present invention placed in a hexagonal recess conventionally used to house a hexagonal nut that houses a screw to support an electrical connector to a printed circuit board. It is a top view of a lock. FIG. 6 is a plurality of board locks of the present invention punched from a metal sheet. DETAILED DESCRIPTION OF THE INVENTION Throughout this application, the same reference numbers refer to the same parts throughout the drawings. The present invention relates to an electrical connector having a barb member for connecting and securing the electrical connector to a printed circuit board ("PCB") and preventing the board lock from loosening and coming off the electrical connector prior to assembly. The board lock of the present invention is typically preferably housed in a hexagonal recess in the top surface of an electrical connector that is used to house a hexagon nut that works with a screw to support the electrical connector on a PCB. To be done. However, the boardlock of the present invention, unlike prior art boardlocks, provides an interference fit by an alternative design with a tab at one end and a self-retaining barb at the other end. Not retained in the board lock retention window. In accordance with the present invention, this point causes the barbs to have a diameter greater than the outside diameter of the board lock retention window such that the board lock retains the board lock within the board lock retention window when biased during shipping. This is accomplished by providing a barb of the biasing means with a large outer diameter. These and other features of the present invention will be more apparent and will be better understood by those skilled in the art from the following description. FIG. 1 is a perspective view of a surface-bonding type electrical connector 10 including a self-holding type board lock 20 of the present invention. As shown in FIG. 1, the electrical connector 10 comprises a non-conductive housing 30 and electrical contacts 40. As will be apparent to one of ordinary skill in the art, the electrical connector 10 preferably contains a memory card, but may also contain a ribbon cable or the like for connecting to contacts. As shown, the electrical connector 10 further comprises a hexagonal recess 50 for accommodating a hexagonal nut that mates with a screw that is accommodated through the through hole 130 shown in FIG. According to the present invention, the hexagonal recess 50 and the through hole further allow the electrical connector 10 of the present invention to be printed circuit board by aligning the board lock 20 with the board lock receiving window of the PCB (see FIG. 4). Used to house the self-holding boardlock 20 of the present invention for retention in ("PCB"). Once the electrical connector 10 is mated with the PCB, the contacts 40 preferably make contact with the desired conductor traces on the PCB. A preferred embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 2, the board lock 20 is preferably a flat body, and has a tab portion 60 at one end and a first symmetrically arranged at the other end about a virtual axis 80. The urging means 70 includes a spring 72 and a second spring 74. The tab portion 60 has a shoulder portion 62 that faces and contacts the bottom portion 52 of the hexagonal recess 50 of the electrical connector 10 to prevent the board lock 20 from popping out through the through hole of the electrical connector 10. Including. As shown in FIG. 2, and with reference to FIG. 2, the tab portion 60 further projects slightly above the upper surface 32 of the non-conductive housing 30, as best shown in FIG. Includes upper portion 64. Preferably, the upper portion 64 of the tab portion 60 is beveled at 66 to prevent the board lock 20 from having sharp, pointed edges. The first and second springs 72,74 of the biasing means 70 diverge slightly from the point 90 above the slot 76 downwards, dividing the springs 72 and 74. As a result, the springs 72, 74 have a wider spacing at the other end 100, which is spaced from the tab portion 60, than at one end adjacent the tab portion 60. The springs 72, 74 form a tight fit with the board lock retention window 160 of the PCB 140 and are symmetrical to act to retain the board lock 20 within the through hole 130 of the electrical connector 10 of the present invention shown in FIG. It comprises a set of barb members 110. Retaining the board lock 20 in the through hole 130 ensures that when the springs 72, 74 are biased, the board lock 20 has a tip-to-chip distance of the first set of barb members 112 through the through hole of the electrical connector 10. So that it is larger than the outer diameter of 130 and that the first set of barb members 112 is located well below the biasing means 70, so that the shoulder 62 abuts the bottom 52 adjacently. This is accomplished by designing the set of barb members 112 to project below the mounting surface 34 of the electrical connector 10 (see FIG. 4). Due to the spring action of the springs 72, 74, the board lock 20 is retained in the holding window 160 of the board lock 20 of the electrical connector 10 at the mounting surface 34, and the board lock 20 on the other hand is provided by the tab portion 60. It is retained inside the hexagonal recess 50 on the upper surface 32 of the. An additional set of barb members 114, 116 is also preferably provided in a convenient manner to form an interference fit with the wall of the boardlock receiving window 160 of the PCB 140. As shown in FIG. 3, the board lock 20 of the present invention is preferably a flat body. In the exemplary embodiment, the boardlock 20 is stamped from the planar material 120 at intervals of L, between respective imaginary axes 80 (FIG. 2), as shown in FIG. The planar material 120 is preferably composed of brass, phosphor bronze, steel or a copper alloy. The planar material 120 is preferably plated with a tin-lead layer to improve wetness during soldering. FIG. 4 is a cross-sectional view showing a part of the end face of the board lock 20 fixedly connected to the holding window 160 of the electric connector 10 together with the electric connector 10 connected to the printed circuit board 140 according to the present invention. Is. As shown, the shoulder 62 of the tab portion 60 of the board lock 20 abuts the bottom 52 of the hexagonal recess 50 to prevent the board lock 20 from passing through the window 160. As shown at 150, the tab portion 60 preferably has a tolerance with the wall of the hexagonal recess 50 to prevent an interference fit with the recess 50. Both tips of the barb members 112 of the first set project below the mounting surface 34 and enter into the boardlock receiving window 160 of the PCB 140 and between the wall of the boardlock receiving window 160 of the PCB 140. An interference fit is formed. As shown, the upper portion 64 of the tab portion 60 is lowered downward so that the upper portion 64 of the board lock 20 does not come out while the upper portion 64 of the board lock 20 forms an interference fit with the PCB 140 at a portion indicated by reference numeral 170. Preferably, it projects slightly above the upper surface 32 of the non-conductive housing 30 of the electrical connector 10 so as to be pressed toward it. The boardlock 20 then holds the electrical connector 10 in place during the optional additional soldering process. FIG. 5 is a plan view of the hexagonal recess 50 of the electrical connector 10 and the board lock 20 inserted into the board lock holding window 160. As shown, the board lock 20 of the present invention includes two opposing rons of the hexagonal recess 50 to prevent the two corners 54 of the hexagonal recess 50 from rotating the board lock 20 within the window 160. It extends over. As a result, an interference fit need not be formed to retain tab portion 60 within hexagonal recess 50. In fact, the boardlock 20 can fit within the hexagonal recess 50 at any of three different positions across the opposite corner 54 of the hexagonal recess 50. The present invention thus relates to the board lock 20 retained within the board lock retention window 160 without the risk of falling out during transport of the electrical connector 10. The boardlock 20 has a barb 60 at one end for retention purposes and a barb at the other end having a larger outer diameter than the outer diameter of the boardlock retaining window 160 when biased. The member 110 is provided. Thus, barb member 110 serves a supplementary role to hold the boardlock within the electrical connector window during shipping. Since the board lock 20 is provided with holding means at both ends thereof, the board lock 20 does not reach an interference fit inside the window 160. The barb members 110 project wider than the windows in the electrical connector 10 to perform the retention function described above during shipping, while the barb members 110 are inserted into the windows 160 of the PCB 140. The barb members 110 are pressed together in pairs to form an interference fit 170 with the window wall of the PCB 140. In the preferred embodiment, the board lock 20 of the present invention is used housed in a conventional through hole 130, which is typically used to house a screw and hex nut combination. The user may either use the screw and hex nut combination with the electrical connector assembly of the present invention or the board lock of the present invention that is shipped with the electrical connector 10 and retained within the electrical connector in accordance with the techniques of the present invention. It becomes possible to select and use. Many modifications of this invention can be made by those skilled in the art who have the benefit of the technology of this invention disclosed herein. For example, the tab portion 60 can be provided with a protrusion on the tab portion so as to form an interference fit with the hexagonal recess 50. However, such an example will not be described here. Furthermore, the retaining means for retaining the board lock in the board lock retaining window of the PCB need not include barbs, the retaining means prior to connecting and securing the board lock to the PCB of the connector. Other suitable retention means, such as hooks or latches, may be included to retain the board lock on the surface immediately below the PCB, as long as it can be retained in the lock receiving window. Other modifications to the electrical connector assembly of this invention will also be apparent to those of ordinary skill in the art and are intended to be within the scope of the invention as defined by the appended claims.

[Procedure of Amendment] Article 184-7, Paragraph 1 of the Patent Act [Submission date] May 9, 1995 [Correction contents] The scope of the claims   1. Penetrate from top to mounting surface of multiple electrical contacts and non-conductive housing A non-conductive housing having a board lock receiving window,   A board lock loosely installed in the board lock accommodating window of the non-conductive connector It consists of   The board lock has a tab at one end thereof, the tab being A plurality of shoulders that prevent it from passing through the board lock receiving window of the non-conductive connector. A portion of the non-conductive connector, and And a biasing means for storing the lock in the window. The board lock into the board lock receiving window of the non-conductive connector. The other end of the board lock, which, when inserted, projects beyond the mounting surface. And the biasing means connects the tab and the electrical connector to the PC. The other for engaging with the board lock receiving window of the PCB for mounting on B. Between the end portion of and the holding means arranged along the biasing means, Retaining means, from the tab, such that the retaining means projects below the mounting surface, The non-conductive connector is provided with a distance toward the other end. By the biasing means that engages with the mounting surface near the peripheral portion of the board lock accommodating window Is urged toward the outside,   Accordingly, when the electrical connector is not attached to the PCB, the And the retaining means work together to secure the board lock to the button of the non-conductive connector. To be mounted on a printed circuit board ("PCB"), which is held in the lock housing Electrical connector.   2. The holding means is provided while the electrical connector is attached to the PCB, A small interference fit is formed to engage the wall of the boardlock receiving window of the PCB. The electrical connector of claim 1, wherein the electrical connector comprises at least one set of barb members.   3. The board lock housing window of the non-conductive connector houses a hex nut Hexagonal nut-shaped recess for holding the screw and the hexagonal nut-shaped recess for housing the screw. Part and a circular through hole sharing an axis, the tab of the board lock, The hexagonal nut-shaped recess extends over both facing corners, The corners facing each other should be rotated by the board lock in the hexagon nut-shaped recess. The board lock to prevent the board from rolling When inserted in the lock receiving window, both shoulders of the tab are centered on the circular through hole. 2. The electric coil according to claim 1, wherein the electric core contacts with the bottom of the hexagonal nut-shaped recess corresponding to each other. Nectar.   4. The biasing means defines first and second slots defining a central elongated slot. The first and second springs are As the springs approach the other end, they expand toward each other, and And the second spring has a function as the holding means. Each set of barb members provided in such a manner that they cross the outer peripheral portion of the board lock. And the distance between the tips of the barb members in each set is The electrical connector according to claim 3, wherein the electrical connector is larger than the outer diameter of the circular through hole of the holding window.   5. The tabs are such that the shoulders are in contact with the bottom of the hexagon nut shaped recess. Of the non-conductive connector, it projects slightly beyond the top surface of the non-conductive connector, The board locks while the electrical connector is attached to the PCB. In order to prevent the board lock from falling off, the board lock Is pressed while being inserted into the board lock receiving window of the PCB. The electrical connector described in Box 3.   6. A board lock is at one end of the board lock and a tab is It has both shoulders to prevent it from slipping out of the board lock housing window of the air connector. The tab on one end and the board lock receiving window of the electrical connector. In addition, it consists of a biasing means for gently holding the board lock,   In the biasing means, the board lock is the board lock of the electrical connector. The bow protruding from the tab beyond the mounting surface when inserted into the receiving window. The biasing means protrudes to the other end of the dock, and the biasing means is provided with the tab and the electrical connector. When the connector is attached to the PCB, the board is attached at a portion adjacent to the tab. It fits loosely inside the dock containing window and the tabs and the board lock of the PCB. Closure window wall and tightening Between the other end for forming a fit and engaging the other end A barb member provided along a step, wherein the barb member is the barb member. Projecting below the mounting surface, near the outer periphery of the board lock accommodating window of the electrical connector A distance is separated from the tab toward the other end to engage the mounting surface. And is biased outwardly, whereby the electrical connection is When the tab is not attached to the PCB, the tab and barb Gently keep the boardlock in the boardlock receiving window of the non-conductive connector. An electrical connector that has a board lock accommodation window that extends from the top surface to the mounting surface For mounting to a printed circuit board ("PCB") having a board lock receiving window Board lock.   7. The board lock according to claim 6, wherein the board lock is substantially flat. Kook.   8. The board lock is made of brass sheet, phosphor bronze sheet or steel sheet. A bow according to claim 7, wherein the bow is stamped from one of a sheet of copper or a copper alloy. Droch.   9. 9. The board lock according to claim 8, wherein the board lock is coated with a tin or lead plating layer. Board lock

Claims (1)

[Claims]   1. Penetrate from top to mounting surface of multiple electrical contacts and non-conductive housing A non-conductive housing having a board lock receiving window,   A board lock loosely installed in the board lock accommodating window of the non-conductive connector It consists of   The board lock has a tab at one end thereof, the tab being A plurality of shoulders that prevent it from passing through the board lock receiving window of the non-conductive connector. A portion of the non-conductive connector, and And a biasing means for storing the lock in the window. The board lock into the board lock receiving window of the non-conductive connector. The other end of the board lock, which, when inserted, projects beyond the mounting surface. And the biasing means connects the tab and the electrical connector to the PC. The other for engaging with the board lock receiving window of the PCB for mounting on B. Between the end portion of and the holding means arranged along the biasing means, Retaining means, from the tab, such that the retaining means projects below the mounting surface, The non-conductive connector is provided with a distance toward the other end. By the biasing means that engages with the mounting surface near the peripheral portion of the board lock accommodating window Is urged toward the outside,   Accordingly, when the electrical connector is not attached to the PCB, the And the retaining means together Holding the card lock in the board lock receiving window of the non-conductive connector. An electrical connector for mounting on a road board ("PCB").   2. The holding means is provided while the electrical connector is attached to the PCB, A small interference fit is formed to engage the wall of the boardlock receiving window of the PCB. The electrical connector of claim 1, wherein the electrical connector comprises at least one set of barb members.   3. The board lock housing window of the non-conductive connector houses a hex nut Hexagonal nut-shaped recess for holding the screw and the hexagonal nut-shaped recess for housing the screw. Part and a circular through hole sharing an axis, the tab of the board lock, The hexagonal nut-shaped recess extends over both facing corners, The corners facing each other should be rotated by the board lock in the hexagon nut-shaped recess. The board lock to prevent the board from rolling When inserted in the lock receiving window, both shoulders of the tab are centered on the circular through hole. 2. The electric coil according to claim 1, wherein the electric core contacts with the bottom of the hexagonal nut-shaped recess corresponding to each other. Nectar.   4. The biasing means defines first and second slots defining a central elongated slot. The first and second springs are As the springs approach the other end, they expand toward each other, and And the second spring has the function as the holding means. Each pair of barb members provided in such a manner that they cross the outer peripheral portion of each other, Of the barbs in The distance between chips is larger than the outer diameter of the circular through hole of the board lock holding window. The electrical connector according to claim 3 of the application.   5. The tabs are such that the shoulders are in contact with the bottom of the hexagon nut shaped recess. Of the non-conductive connector, it projects slightly beyond the top surface of the non-conductive connector, The board locks while the electrical connector is attached to the PCB. In order to prevent the board lock from falling off, the board lock Is pressed while being inserted into the board lock receiving window of the PCB. The electrical connector described in Box 3.   6. A board lock is at one end of the board lock and a tab is It has both shoulders to prevent it from slipping out of the board lock housing window of the air connector. The tab on one end and the board lock receiving window of the electrical connector. And consists of a biasing means for holding the board lock,   In the biasing means, the board lock is the board lock of the electrical connector. The bow protruding from the tab beyond the mounting surface when inserted into the receiving window. The biasing means protrudes to the other end of the dock, and the biasing means is provided with the tab and the electrical connector. To form an interference fit when mounting the connector to the PCB. The biasing means between the other end for engaging the wall portion of the docking window A barb member provided along the barb member, wherein the barb member is the barb member. Of the electrical connector near the outer periphery of the board lock receiving window. From the tab to engage the mounting surface It is provided at a distance toward the other end and is biased outward. As a result, when the electrical connector is not attached to the PCB, the The tab and the barb are brought together to secure the board lock to the non-conductive connector. Board lock housing that holds from inside the board lock housing window and penetrates from the top surface to the mounting surface An electrical connector having a storage window to a printed circuit board ("P Board lock for mounting on CB ").   7. The board lock according to claim 6, wherein the board lock is substantially flat. Kook.   8. The board lock is made of brass sheet, phosphor bronze sheet or steel sheet. A bow according to claim 7, wherein the bow is stamped from one of a sheet of copper or a copper alloy. Droch.   9. 9. The board lock according to claim 8, wherein the board lock is coated with a tin or lead plating layer. Board lock